Practice Test: Energy and Rates of Reactions

Similar documents
Name: Thermochemistry. Practice Test C. General Chemistry Honors Chemistry

Thermochemistry: Heat and Chemical Change

3.2 Calorimetry and Enthalpy

June Which is a closed system? (A) burning candle (B) halogen lightbulb (C) hot water in a sink (D) ripening banana

Unit 7 Kinetics and Thermodynamics

HEAT, TEMPERATURE, & THERMAL ENERGY. Work - is done when an object is moved through a distance by a force acting on the object.

Heat. Heat Terminology 04/12/2017. System Definitions. System Definitions

CHAPTER 17 Thermochemistry

Date: SCH 4U Name: ENTHALPY CHANGES

Quiz I: Thermodynamics

Calculate the energy required to melt a 2.9 kg block of ice. Melting is a phase change - there is no change in temperature

Brown, LeMay Ch 5 AP Chemistry Monta Vista High School

I. The Nature of Energy A. Energy

Slide 1 / Objects can possess energy as: (a) endothermic energy (b) potential energy (c) kinetic energy. a only b only c only a and c b and c

Chemistry 30: Thermochemistry. Practice Problems

Learning Check. How much heat, q, is required to raise the temperature of 1000 kg of iron and 1000 kg of water from 25 C to 75 C?

Introduction to Thermochemistry. Thermochemistry Unit. Definition. Terminology. Terminology. Terminology 07/04/2016. Chemistry 30

Selected Questions on Chapter 5 Thermochemistry

2. What is a measure of the average kinetic energy of particles? (A) heat capacity (B) molar enthalpy (C) specific heat (D) temperature

Name Class Date. As you read Lesson 17.1, use the cause and effect chart below. Complete the chart with the terms system and surroundings.

ENTHALPY CHANGE CHAPTER 4

Energetics. These processes involve energy exchanges between the reacting system and its surroundings.

Chapter 5 Thermochemistry

CHEM J-11 June /01(a)

Energy. Different types of energy exist (heat, potential, kinetic, chemical, nuclear etc.)

Thermochemistry Chapter 4

Note: 1 calorie = 4.2 Joules

Thermochemistry: the study of energy (in the from of heat) changes that accompany physical & chemical changes

Chapter 5. Thermochemistry

Energy Changes in Reactions p

Based on the kinetic molecular theory of gases, which one of the following statements is INCORRECT?

_ + Units of Energy. Energy in Thermochemistry. Thermochemistry. Energy flow between system and surroundings. 100º C heat 50º C

HC- Kinetics and Thermodynamics Test Review Stations

Rates, Temperature and Potential Energy Diagrams Worksheet

CP Chapter 17 Thermochemistry

Thermochemistry. Energy. 1st Law of Thermodynamics. Enthalpy / Calorimetry. Enthalpy of Formation

CHEMISTRY 30 Assessment Enthalpy Change and Calorimetry Formative

Thermochemistry. Energy and Chemical Change

ADDITIONAL RESOURCES. Duration of resource: 21 Minutes. Year of Production: Stock code: VEA12052

Chapter 6. Thermochemistry

Calculating Reaction Rates 1:

c. Methane and oxygen react to form carbon dioxide and water

Thermochemistry. Questions to ponder. Because 4/20/14. an ice-cube? an ice-cube? Part 2: Calorimetry. But I KNOW. Q=mc T, but T=0

Energetics. Topic

St. John s College High School Mr. Trubic AP Midterm Review Packet 2

Chemistry Grade : 11 Term-3/Final Exam Revision Sheet

Unit 7 Thermochemistry Chemistry 020, R. R. Martin

Chemistry Heat Review. Heat: Temperature: Enthalpy: Calorimetry: Activation energy:

Ch 6. Energy and Chemical Change. Brady & Senese, 5th Ed.

8.6 The Thermodynamic Standard State

THERMOCHEMISTRY. This section explains the relationship between energy and heat, and distinguishes between heat capacity and specific heat.

Chapter 6 Energy and Chemical Change. Brady and Senese 5th Edition

Chemistry 30: Reaction Kinetics. Practice Problems

UNIT 15 - Reaction Energy & Reaction Kinetics. I. Thermochemistry: study of heat in chemical reactions and phase changes

Chapter 17 Thermochemistry

Mr Chiasson Advanced Chemistry 12 / Chemistry 12 1 Unit B: Thermochemical Changes

CHAPTER 16: REACTION ENERGY AND CHAPTER 17: REACTION KINETICS. Honors Chemistry Ms. Agostine

Enthalpy Changes. Note: 1 calorie = 4.2 Joules

Chapter 5 Practice Multiple Choice & Free

Energy Transformations

Ch. 17 Thermochemistry

CHAPTER 16 REVIEW. Reaction Energy. SHORT ANSWER Answer the following questions in the space provided.

ENERGY AND ENERGETICS PART ONE Keeping Track of Energy During a Chemical Reaction

Name Date Class THERMOCHEMISTRY

Thermochemistry (chapter 5)

THERMOCHEMISTRY & DEFINITIONS

Chapter 15 Energy and Chemical Change

Chapter 8. Thermochemistry 강의개요. 8.1 Principles of Heat Flow. 2) Magnitude of Heat Flow. 1) State Properties. Basic concepts : study of heat flow

33. a. Heat is absorbed from the water (it gets colder) as KBr dissolves, so this is an endothermic process.

Thermochemistry HW. PSI Chemistry

The Nature of Energy Energy is the ability to do work or produce Heat, q or Q, is ; flows due to temperature differences (always to )

Name: General Chemistry Chapter 11 Thermochemistry- Heat and Chemical Change

ENERGY CHANGES IN CHEMICAL REACTIONS

Chapter Objectives. Chapter 9 Energy and Chemistry. Chapter Objectives. Energy Use and the World Economy. Energy Use and the World Economy

THERMOCHEMISTRY CHAPTER 11

1.4 Enthalpy. What is chemical energy?

Chapter 6: Thermochemistry

Thermochemistry. Energy and Chemical Change

Name Energy Test period Date

Energy Ability to produce change or do work. First Law of Thermodynamics. Heat (q) Quantity of thermal energy

Chem 401 Unit 1 (Kinetics & Thermo) Review

Energy Ability to produce change or do work. First Law of Thermodynamics. Heat (q) Quantity of thermal energy

Enthalpy and Internal Energy

Unit 2: Thermodynamics & Kinetics. Thermochemistry: study of the energy changes that accompany physical or chemical changes in matter

Chemical Thermodynamics

Energy and Chemical Change

Thermochemistry: Energy Flow and Chemical Reactions

Name: Class: Date: ID: A

Saturday Study Session 1 3 rd Class Student Handout Thermochemistry

Changes and Properties of Matter

THERMODYNAMICS. Energy changes in reactions Text chapter 3, 4, 5, 6 & 7

Gas Laws. Bonding. Solutions M= moles solute Mass %= mass solute x 100. Acids and Bases. Thermochemistry q = mc T

Table 1. Data for Heat Capacity Trial 1 Trial 2

Chapter 3. Thermochemistry: Energy Flow and Chemical Change. 5.1 Forms of Energy and Their Interconversion

Exam 3, Ch 7, 19, 14 November 9, Points

Reaction Kinetics Multiple Choice

Unit 14. States of Matter & Thermochemistry

Thermodynamics- Chapter 19 Schedule and Notes

Chapter 11. Thermochemistry. 1. Let s begin by previewing the chapter (Page 292). 2. We will partner read Pages

Example 1: m = 100mL = 100g T i = 25 o C T f = 38 o C ΔT = 13 o C c = 4.18 J / (g o C) Q =??? Molar Heat of Dissolutions

Transcription:

Practice Test: Energy and Rates of Reactions NAME: /65 Multiple Choice Identify the letter of the choice that best completes the statement or answers the question. (20 marks) 1. What is the symbol for the enthalpy change that occurs during the phase change of a substance from solid to liquid? a. H vap b. H cond c. H melt d. H fre e. H boil 2. A 20.0 g sample of aluminum is cooled 7.5 C. The specific heat capacity of aluminum is 0.900 J/g C. What is the energy change for this sample? a. 140 kj b. 140 J c. 140 kj d. 140 J 3. 150.0 ml of water absorbs 7.84 kj of energy. The specific heat capacity of water is 4.184 J/g C. What is the temperature change? a. 0.0125 C b. 12.5 C c. 353 K d. 80 C e. 80 K 4. When a sample of potassium nitrate is dissolved in water, the temperature of the water changes from 23.5 C to 20.3 C. Which statement describes this process? a. This process is exothermic, so the surroundings get cooler. b. This process is exothermic, so the surroundings get warmer. c. This process is endothermic, so the surroundings get cooler. d. This process is endothermic, so the surroundings get warmer. e. None of the above options can be known for sure. 5. What is the definition of the temperature of a substance? a. the total heat content of a substance b. the speed of the fastest particles in the substance c. the speed of the slowest particles in the substance, subtracted from the speed of the fastest particles in the substance d. the heat capacity of the substance times its mass e. the average kinetic energy of a system 6. What is the definition of the specific heat capacity of a substance? a. the amount of heat required to raise the temperature of 1 g of a substance 1 C b. the amount of heat required to raise the temperature of 1 mol of substance 1 C c. the amount of heat required to raise the temperature of a substance 1 C d. the amount of heat required to raise the temperature of 1 kg of a substance 1 C e. the amount of heat required to raise the temperature of 1 g of a substance 100 C 7. Which statement describes an exothermic reaction? a. The energy absorbed in bond breaking is more than the energy released in bond formation. b. The energy absorbed in bond breaking is less than the energy released in bond formation. c. The system absorbs energy. d. The surroundings cool down. e. The potential energy of the reactants is less than the potential energy of the products. 8. In an exothermic reaction, H rxn is... a. always positive b. always negative c. negative or positive d. zero e. not possible to measure 9. The SI unit for energy is the joule (J). What is a joule in base units? a. kgm 1 s 1 b. kgm 2 s 1 c. kgm 1 s 2 d. kgm 2 s 2 e. kgm 2 s 3 10. Which statement does not describe an endothermic reaction? a. The surroundings cool down. b. H rxn is positive. c. Heat is released by the system. d. Heat is absorbed by the system. e. The potential energy of the products is greater than the potential energy of the reactants. 11. Which statement about the instantaneous rate of a reaction is not correct? a. The higher the rate, the greater is the slope of a line on a concentration-time graph. b. The instantaneous rate is the slope of the tangent to a line on a concentration-time graph. c. The instantaneous rate is the slope of the secant to a line on a concentration-time graph. d. The instantaneous rate decreases over time.

12. Which expression does not represent the rate of the following reaction? Mg (s) + 2HCl (aq) MgCl 2(aq) + H 2(g) a. b. c. d. 13. In the following reaction, what is equal to the rate of production of NO gas? 4NH 3(g) + 5O 2(g) 4NO (g) + 6H 2 O (g) a. the rate of production of NH 3 gas b. one third the rate of production of water c. four fifths the rate of disappearance of O 2 gas d. one quarter the rate of disappearance of NH 3 gas e. six times the production of water vapour 14. In the following reaction, butane is consumed at the rate of 0.0333 mol/(l s). Determine the rate at which CO 2 is produced. C 4 H 10(g) + O 2(g) 4CO 2(g) + 5H 2 O (g) a. 0.008 25 mol/(l s) b. 0.0165 mol/(l s) c. 0.0333 mol/(l s) d. 0.0667 mol/(l s) e. 0.133 mol/(l s) 15. Which statement about the factors that affect reaction rates is false? a. Decreasing the concentrations of the reacting particles decreases the chance of collision. b. A collision with poor orientation requires a higher activation energy than a collision with optimum orientation. c. Increasing the pressure in a gaseous reaction increases the chance of collision. d. A reaction occurs every time particles of the reactants collide. e. Increasing the temperature increases the reaction rate. 16. Given the following reaction mechanism, what is the equation for the overall reaction? 2A B + 2C (slow) B + C D + E (fast) C + D E + F (fast) a. 2A 2E + F b. 2A + B + 2C D + 2E + F c. 2A + 2C 2E + F d. 2A + C 2E + F 17. Which quantity does not increase when the temperature of a reaction system is raised? a. activation energy b. # of collisions c. # of effective collisions d. average kinetic energy of the particles ** Use the Potential Energy Diagram to answer questions 18-20 ** 18. Use the Potential Energy Diagram. What is shown by the letter A? 19. Use the Potential Energy Diagram. What is shown by the letter B? 20. Use the Potential Energy Diagram. What is shown by the letter C?

Problems: Choose FIVE of the seven questions for a total of 45 MARKS. Make sure to show ALL of your work. Be sure to include all equations, correct units, and therefore statements. The FIRST five questions attempted will be marked. /45 1. A chemist uses a coffee-cup calorimeter to neutralize completely 75.0 ml of 0.67 mol/l HCl with 75 ml of 0.67 mol/l NaOH. The temperature change is 39.6 C. a) Calculate the heat of neutralization, in kj/mol of HCl and then write a thermochemical equation for the reaction. [ /9] 2. a) Given equations (1) and (2), calculate the enthalpy change for equation (4). (1) Pb (s) + PbO 2(s) + 2SO 3(g) 2PbSO 4(s) H = 775 kj (2) SO 3(g) + H 2 O (l) H 2 SO 4(aq) H = 133 kj (3) Pb (s) + PbO 2(s) + 2H 2 SO 4(aq) 2PbSO 4(s) + 2H 2 O (l) b) Draw a fully labeled potential energy diagram to represent the equation (5). 3. a. Use standard heats of formation to determine the heat of combustion for the following reaction. 2C 2 H 5 OH (l) + 3O 2(g) 6H 2 O (g) + 4CO 2(g) (5) b. Calculate the amount of energy released from combusting 50 g of ethanol. (4)

4. The bond energy of H 2(g) is 436.4 kj/mol and for Cl 2(g) it is 242.7 kj/mol. The bond energy for the formation of HCl (g) is 431.9 kj/mol. What is the standard heat of formation for HCl (g) based on these values? What is the thermochemical equation for this reaction? [ /9] 5. The experimental data in the table below were collected for the following decomposition of SO 2 Cl 2(g). What is the rate law for this reaction? [ /9] SO 2 Cl 2(g) SO 2(g) + Cl 2(g) Trial Initial concentration of SO 2 Cl 2(g) (mol/l) Initial reaction rate [mol/(l s)] 1 0.100 2.2 10 6 2 0.200 4.4 10 6 3 0.300 6.6 10 6

6. The forward activation energy of a reaction is 25 kj/mol, and the heat of reaction is 286.4 kj/mol. a) Sketch a potential energy diagram for the reaction. Label the axes, the forward activation energy, the heat of reaction, the transition state, and the reactants and products. b) Indicate the numerical values of the forward activation energy and the enthalpy change on your diagram. c) Show and label the effect of a catalyst. 7. Ethanol, C 2 H 5 OH, and gasoline (approximately 100% octane, C 8 H 18 ) are both used as fuel in cars. If gasoline sells for $1.15/L, what would the price of ethanol have to be in order to provide the same amount of heat per dollar? The density of octane is 0.7025 g/ml, and H f of octane is 249.9 kj/mol. The density of ethanol is 0.7894 g/ml, and H f of ethanol is 277.6 kj/mol. [ /9]

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback